Basic Information

Condensed Matter Physics under extreme conditions.

Professor, National - level talent

hjhuang@whut.edu.cn 

Biography

From September 1995 to June 1999, he studied at Jinzhou Normal College, majoring in science and obtained a Bachelor of Science degree.

From September 1999 to June 2002, he studied at Liaoning University, majoring in science and obtained a Master of Science degree.

From September 2002 to June 2005, he studied at the China Academy of Engineering Physics, majoring in condensed matter physics and obtained a Doctor of Science degree.

From June 2005 to December 2007, he worked as a lecturer in the School of Science at Wuhan University of Technology.

From January 2007 to December 2011, he worked as an associate professor in the School of Science at Wuhan University of Technology.

Since January 2012, he has been a chief professor in the School of Physics and mechanics at Wuhan University of Technology and serves as a doctoral supervisor

Research Interests

He has long been committed to the innovation and design of high temperature and pressure technologies, as well as the intersection and application of high pressure science with physical science, materials science, and earth science. Particularly in the research of deep - Earth materials, he has achieved innovative academic results highly praised by well - known international peers.

To date, he has published more than 40 articles as the first or corresponding author in internationally renowned journals such as Nature, Nature Communications, Geophysical Research Letters, and Journal of Geophysical Research. He has presided over one Excellent Young Scientists Fund, three General Projects, and one Youth Fund of the National Natural Science Foundation of China.

Publications

1. Haijun Huang, Yingwei Fei, Lingcang Cai, Fuqian Jing, Xiaojun Hu, Hongsen Xie, Lianmeng Zhang，Zizheng Gong (2011)，Evidence for an oxygen-depleted liquid outer core of the Earth. Nature，479:513-516. (impact factor:36.10)  

2. Huang, H., Fan, L., Liu, X., Xu, F., Wu, Y., Yang, G., & Fei, Y. (2022). Inner core composition paradox revealed by sound velocities of Fe and Fe-Si alloy. Nature communications, 13(1), 1-9. (impact factor: 16.6)  

3. Haijun Huang, Shijie Wu, Xiaojun Hu, Qingsong Wang, Xiang Wang, and Yingwei Fei (2013), Shock compression of Fe-FeS mixture up to 204 GPa, Geophysical Research Letters, 40(4):683-691(impact factor:3.79).

4. Huang, H., X. Hu, F. Jing, L. Cai, Q. Shen, Z. Gong, and H. Liu (2010), Melting behavior of Fe-O-S at high pressure: A discussion on the melting depression induced by O and S, J. Geophys. Res., 115, B05207 （1-9）(impact factor:3.3) 

5. Huang Haijun, Jing Fuqian, Cai Lingcang, and Bi Yan (2005). Grüneisen parameter along Hugoniot and melting temperature of ε-iron: a thermodynamic computational method。Chin. Phys. Lett., 22, 836-838.

6. Huang, H., Leng, C., Wang, Q., Yang, G.,Hu, X., Wu, Y., Liu, X., & Fei, Y. (2018). Measurements of sound velocity of liquid Fe-11.8 wt % S up to 211.4 GPa and 6,150 K. Journal of Geophysical Research: Solid Earth, 123. 4730-4739 

7. Huang, H., Leng, C., Wang, Q., Young,G., Liu, X., Wu, Y., et al. (2019).Equation of state for shocked Fe‐8.6wt% Si up to 240 GPa and 4,670 K. Journal of Geophysical Research: Solid Earth, 124(8):8300-8312

8. Haining Li，Liucheng Chen，Xiang Zhu，Zheng Wang，Haijun Huang ，Kun Yang，Lei Su ，Guoqiang Yang ，Xiaodong Li，Ionic Liquid: A Good Pressure Transmitting Medium，J Solution Chem，2017.1.1，46(1)：3~10.

9. Ma Zheng-Zheng, Li Jian-Qing, Chen Zi-Peng,Tian Zhao-Ming, Hu Xiao-Jun, and Huang Hai-Jun*. Multiferroic properties and exchange bias in bi1-xsrxfeo3 (x = 0-0.6) ceramics. Chinese Physics B, 2014,23(9), 446-450.

10. Li, H., Wang, Z., Chen, L., Wu, J., Huang, H* & Yang, K., et al. Kinetic effect on pressure -induced phase transitions of room temperature ionic liquid, 1-ethyl- 3- methylimidazolium trifluoromethanesulfonate. Journal of Physical Chemistry B, 119(44), 2015,14245-51 .

11. Wang, Z^#., Yang, K., Li, H., Yuan, C., Zhu, X., Huang, H*., & Fang, Y. (2018). In situ observation of sol-gel transition of agarose aqueous solution by fluorescence measurement. International journal of biological macromolecules, 112, 803-808.

12. Wang, Z., Yang, K., Li, H., Yuan, C., Zhu, X. , & Huang, H*. , et al. (2018). In situ observation of gelation of methylcellulose aqueous solution with viscosity measuring instrument in the diamond anvil cell. Carbohydrate Polymers, 190:190-195，S0144861718302364. 

13. Liu, X., Fan, L., Yang, G., Chen, X., & Huang, H. (2020). Hugoniot equation of state of cementite (Fe3C) up to 250 GPa and its geophysical implications. Physics of the Earth and Planetary Interiors, 306, 106506

14. Young, G., Fan, L., Zhao, B., Chen, X., Liu, X., & Huang, H*. (2021). Equation of State for Fe-9.0 wt% O up to 246 GPa: Implications for Oxygen in the Earth's Outer Core. Journal of Geophysical Research: Solid Earth,126, e2020JB021056 .

15. Cheng, Z., Tu, B., Wu, Y., & Huang, H. (2024). High-pressure and high-temperature synthesis of black phosphorus-graphite anode material for lithium-ion batteries. Electrochimica Acta, 473, 143510.

16. Zhang, X., Li, C., Xu, F., Zhang, J., Gao, C., Cheng, Z., ... & Huang, H. (2023). Sound Velocity Anisotropy and Single‐crystal Elastic Moduli of MgO to 43 GPa. Journal of Geophysical Research: Solid Earth, e2022JB026311. 

17. Liu, X., Gao, C., Mashimo, T., Ozaki, N., Nellis, WJ ., Yang, G., Huang, H.,  Morioka, S., Miyanishi, K ., Sano, T., Kodama, R . (2021). Shock-induced polymorphic transitions of pbf2 up to 1 tpa and their implications for the universal behavior of shocked ax2 compounds. Physical Review B, 103(9), 094106. 

18. Fan, L. L., Liu, X., Gao, C., Liu, Z. L., Li, Y. L., & Huang, H. J. (2023). First-principles calculations of the high pressure and temperature properties of Fe7C3. Chinese Physics B. 

19. Cheng, Z., Wu, Y., & Huang, H. (2023). Red phosphorus/graphite composite as a high performance anode for lithium-ion batteries. Solid State Ionics, 389, 116098.